A Correlation Between Failure Angle and Constituent for AI-AIN Composites Under Uniaxial Tensile Conditions

PENG YU; G.B. SCHAFFER; MA QIAN

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A Correlation Between Failure Angle and Constituent for AI-AIN Composites Under Uniaxial Tensile Conditions

机译：单轴拉伸条件下AI-AIN复合材料破坏角与成分的相关性

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Al-AlN composites with different A1N reinforcement fractions and porosity were fabricated through nitridation of laser-sintered AA 6061 powder followed by infiltration with AA 6061. Their failure behaviors were investigated under uniaxial tensile loading conditions. Tensile testing and fractography indicate that the fracture mode changes gradually from ductile to brittle fracture with increasing A1N reinforcement or porosity. An analysis of the fractured Al-AlN tensile samples reveals that the failure surface angle, 6, is dictated by the volume fraction of the matrix, f_m, in a form of tan θ = f_m~(5.5).

机译：通过对激光烧结的AA 6061粉末进行氮化，然后用AA 6061浸渗，制备出具有不同AlN增强比和孔隙率的Al-AlN复合材料。研究了它们在单轴拉伸载荷条件下的破坏行为。拉伸试验和断裂形貌表明，随着AlN增强或孔隙率的增加，断裂模式从韧性断裂转变为脆性断裂。对断裂的Al-AlN拉伸样品的分析表明，破坏面角6由tanθ= f_m〜（5.5）形式的基体体积分数f_m决定。

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《Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science》 |2012年第9期|共7页
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PENG YU; G.B. SCHAFFER; MA QIAN;
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机译：单轴拉伸条件下AI-AIN复合材料破坏角与成分的相关性
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A Correlation Between Failure Angle and Constituent for AI-AIN Composites Under Uniaxial Tensile Conditions

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